​Research articles

(see also Google Scholor Citations)

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22) Sugie K., T. Yoshimura, and M. Wakita (in press) Impact of CO2 on the elemental composition of the particulate and dissolved organic matter of marine diatoms emerged after nitrate depletion. Limnology and Oceanography. doi:10.1002/lno.10816.

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21) Sugie K. and K. Suzuki (2017) Characterization of the synoptic-scale diversity, biogeography and size distribution of diatoms in the North Pacific. Limnology and Oceanography, 62: 884–897. doi:10.1002/lno.10473.

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20) Sugie K. and K. Kuma (2017) Change in the elemental composition and cell geometry of the marine diatom Attheya longicornis under nitrogen- and iron-depleted conditions. Diatom Research, 32: 11–20. doi:10.10.1080/0269249X.2017.1301999.

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19) Endo H., K. Sugie, T. Yoshimura and K Suzuki (20016) Response of spring diatoms to CO2 availability in the western North Pacific as determined by next-generation sequencing. PLoS ONE, 11: e0154291. doi:10.1371/journal.pone.0154291.

 

18) Sugie K. and T. Yoshimura (2016) Effects of high-CO2 levels on the ecophysiology of the diatom Thalassiosira weissflogii differ depending on the iron nutritional status. ICES Journal of Marine Science, 73: 680–692. doi:10.1093/icesjms/fsv259.

 

17) Sugie K. and K. Suzuki (2015) Size of dominant diatom species can alter their evenness. PLoS ONE, 10 (6): e0131454. doi:10.1371/journal.pone.0131454.

 

16) Sugie K. and K. Suzuki (2015) A new araphid diatom Thalassionema kuroshioensis sp. nov. from temperate Japanese coastal waters. Diatom Research, 30: 237–245. doi:10.1080/0269249X.2015.1055339.

 

15) Endo H., K. Sugie, T. Yoshimura and K. Suzuki (2015) Effects of CO2 and iron availability on rbcL gene expression in the Bering Sea diatoms. Biogeosciences, 12: 2247–2259. doi:10.5194/bg-12-2247-2015.

 

14) Yoshimura T., K. Sugie, H. Endo, K. Suzuki, J. Nishioka and T. Ono (2014) Organic matter production response to CO2 increase in open subarctic plankton communities: Comparison of six microcosm experiments under iron-limited and -enriched bloom conditions.

Deep-Sea Research II, 94: 1–14. doi:10.1016/j.dsr.2014.08.004.

 

13) Sugie K., H. Endo, K. Suzuki, J. Nishioka, H. Kiyosawa and T. Yoshimura (2013) Synergistic effects of pCO2 and iron availability on nutrient consumption ratio of the Bering Sea phytoplankton community.  Biogeosciences, 10: 6309 - 6321. doi:10.5194/bg-10-6309-2013.



12) Sugie K., J. Nishioka, K. Kuma, Y. N. Volkov and T. Nakatsuka (2013) Availability of particulate Fe to phytoplankton in the Sea of Okhotsk. ​Marine Chemistry,152: 20-31. doi:10.1016/j.marchem.2013.03.005.

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11) Sugie K. and T. Yoshimura (2013) Effects of pCO2 and iron on the elemental composition and cell geometry of the marine diatom Pseudo-nitzschia pseudodelicatissima (Bacillariophyceae). ​​​Journal of Phycology, 49: 475 - 488. doi:10.111/jpy.12054​. <This article has been cited in the IPCC AR5 Working Group II: https://ipcc-wg2.gov/AR5/images/uploads/WGIIAR5-Chap6_OLSM.pdf>

10) Sugie K., K. Kuma, S. Fujita, S. Ushizaka, K. Suzuki and T. Ikeda (2011) Importance of intracellular Fe pools on growth of marine diatoms by using unialgal cultures and the Oyashio region phytoplankton community during spring. Journal of Oceanography, 67: 183–196. doi:10.1007/s10872-011-0017-4​.

9) Sugie K. and A. Taniguchi (2011) Continuous supply of bioavailable iron for marine diatoms from steelmaking slag. ISIJ International, 51: 513–520.

8) Nakayama Y., K. Kuma, S. Fujita, K. Sugie and T. Ikeda (2010) Temporal variability and bioavailability of iron and other nutrients during the spring phytoplankton bloom in the Oyashio region. Deep-Sea Research II, 57: 1618–1629. doi:10.1016/j.dsr2.2010.03.006.

7) Sugie K., K. Kuma, S. Fujita, Y. Nakayama and T. Ikeda (2010) Nutrient and diatom dynamics during late winter and spring in the Oyashio region of the western subarctic Pacific Ocean. Deep-Sea Research II, 57: 1630–1642. doi:10.1016/j.dsr2.2010.03.007.

6) Sugie K., K. Kuma, S. Fujita and T. Ikeda (2010) Increase in Si:N drawdown ratio due to resting spore formation by spring bloom-forming diatoms under Fe- and N-limited conditions in the Oyashio region. Journal of Experimental Marine Biology and Ecology, 382: 108–116. doi:10.1016/j.jembe.2009.11.001.

5) Kitayama S., K. Kuma, E. Manabe, K. Sugie, H. Takata, Y. Isoda, K. Toya, S. Saitoh, S. Takagi, Y. Kamei and K. Sakaoka. (2009) Controls on iron distributions in the deep water column of the North Pacific Ocean: Iron(III) hydroxide solubility and marine humic-type dissolved organic matter. Journal of Geophysical Research, 114: C08019, doi:10.1029/2008JC004754.

4) Sugie K. and K. Kuma (2008) Resting spore formation in the marine diatom Thalassiosira nordenskioeldii under iron- and nitrogen-limited conditions. Journal of Plankton Research, 30: 1245–1255. doi:10.1093/plankt/fbn080.

3) Ushizaka S., K. Sugie, M. Yamada, M. Kasahara and K. Kuma (2008) Significance of Mn and Fe for the growth of a coastal marine diatom, Thalassiosira weissflogii. Fisheries Science, 74: 1137–1145.

2) 杉江恒二・谷口旭 (2008) Thalassiosira属珪藻2種によるスラグ由来鉄の生物学的有用性の持続度の推定. 鉄と鋼, 94: 569–574.

1) 杉江恒二・谷口旭 (2007) Thalassiosira属珪藻2種によるスラグ由来鉄の生物学的有用性の持続度の検討. 鉄と鋼, 93: 558–564.

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Review article

1) 杉江恒二・芳村毅 (2011) 海洋酸性化が植物プランクトン及び物質循環に及ぼす影響. 海の研究, 20: 101–148. {Sugie K. and T. Yoshimura (2011) Impact of ocean acidification on phytoplankton dynamics and bioelement cycling. Oceanography in Japan, 20: 101–148.}



その他論文

1) 杉江恒二（印刷中） 2017年度日本海洋学会岡田賞受賞記念論文. 植物プランクトン動態および生元素循環に対する海洋酸性化の影響評価. 海の研究. {Sugie K. (in press) Impact of ocean acidification on phytoplankton dynamics and bioelement cycling. Oceanography in Japan. Commemoration paper of Okada Prize, The Oceanographic Society of Japan.}

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Non Referee Articles​

6) 芳村毅・杉江恒二・西岡純・鈴木光次 (2014) 海洋酸性化に対する生物応答の解明（その4）―複数地点の外洋域プランクトン群集による培養実験―. 電力中央研究所報告書，V13018.

 

5) 芳村毅・杉江恒二 (2014) 海洋酸性化に対する生物応答の解明（その3）―複数種の植物プランクトン単利株による培養実験―. 電力中央研究所報告書，V13017.

 

4) 杉江恒二・芳村毅 (2012) 海洋酸性化に対する生物応答の解明（その2）―単離植物プランクトン株を用いた培養試験―. 電力中央研究所報告書, V11049.



3) 杉江恒二・遠藤寿・鈴木光次・芳村毅 (2011) 夏季ベーリング海における植物プランクトン群集へのCO2と鉄の効果がSiとNの利用比に及ぼす影響. 月間海洋 「潮汐混合とオホーツク海・ベーリング海の物理・化学・生物過程: 白鳳丸KH09-4航海・おしょろ丸・クロモフ2006/2007シンセシス」

2) 増田良帆・津旨大輔・吉田義勝・三角和弘・杉江恒二 (2010) 海洋酸性化の石灰化生物への影響に関する文献調査. 電力中央研究所報告書, V09301.



1) 芳村毅・杉江恒二・西岡純 (2009) 海洋酸性化に対する生物応答の解明―プランクトン群集を用いた培養試験―. 電力中央研究所報告, V09005.​